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Title: Innovations of Matthew Lipson
Introduction
Matthew Lipson is a prominent inventor based in Sunnyvale, California. He has made significant contributions to the field of optical materials, particularly in the area of multiphoton absorption. With a total of six patents to his name, Lipson's work has paved the way for advancements in photophysical and photochemical methods.
Latest Patents
One of Lipson's latest patents focuses on two-photon or higher-order absorbing optical materials for the generation of reactive species. This patent discloses highly efficient multiphoton absorbing compounds and methods of their use. The compounds generally include a bridge of pi-conjugated bonds connecting electron donating groups or electron accepting groups. The bridge may be substituted with a variety of substituents as well. Solubility, lipophilicity, absorption maxima, and other characteristics of the compounds may be tailored by changing the electron donating groups or electron accepting groups, the substituents attached to, or the length of the pi-conjugated bridge. Numerous photophysical and photochemical methods are enabled by converting these compounds to electronically excited states upon simultaneous absorption of at least two photons of radiation. The compounds have large two-photon or higher-order absorptivities such that upon absorption, one or more Lewis acidic species, Lewis basic species, radical species, or ionic species are formed.
Career Highlights
Matthew Lipson has worked with esteemed organizations such as the California Institute of Technology and Siros Technologies, Inc. His experience in these institutions has contributed to his expertise in the development of innovative optical materials.
Collaborations
Some of Lipson's notable coworkers include Brian H. Cumpston and Seth R. Marder. Their collaborative efforts have further advanced the research and development of multiphoton absorbing compounds.
Conclusion
Matthew Lipson's innovative work in the field of optical materials has led to significant advancements in photophysical and photochemical methods. His contributions continue to influence the scientific community and pave the way for future innovations.